CN1108540C - Puller and device for coupling film to leader - Google Patents

Abstract

A coupling structure capable of coupling a film to a leader with high reliability. The traction plate has a traction plate body formed with a first hole and a second hole at a rear portion thereof with respect to a feeding direction of the traction plate. A sheet member having finger-like projections is bonded to the leader body such that the projections extend across respective first apertures, and films having an aperture at each of their leading ends are coupled to the leader body by inserting their leading ends through the second apertures and into the first apertures until the projections snap into the apertures formed in the films.

Description

Machine leader and film is coupled to device on the machine leader

The present invention relates to a kind of machine leader that in automatic flushing photographic film, uses and this machine leader is coupled to coupling device on the film.

When in a kind of machine that develops photographic film automatically that uses a machine leader guiding film, developing photographic film, be connected on the machine leader 62 with their front end as shown in Figure 18 and by in the machine leader 62 importing machines from the film 61 of film loader 60.

Machine leader 62 is pieces of sheet of a flexible synthetic resin, is formed with a plurality of holes 63 that are arranged in the feed-in direction with equal intervals on it and is used for being meshed with the machine leader feed-in gear teeth of film rinsing unit.

If a volume film 61 will be from machine leader 62 separately and immerse in the flushing cisterns of filling rinse solution, it must take out in case, and this can hinder flushing operation.This work is not only to bother but also time-consuming.And also possible film can be because of carelessness by exposure when taking out in flushing cisterns.In order to prevent that this class incident from taking place, each film 61 must be connected on the machine leader 62 securely.

Film 61 is connected on the machine leader 62 by splicing tape 64 usually.But splicing tape 64 is to be difficult to operation, at first because they must on the worktable that is placed on a special use so that apply ointment or plaster on film and fairlead with high precision they are coupled Shi Caineng.Secondly also be pretty troublesome because after flushing finishes, adhesive tape is taken off from film and machine leader.Using this adhesive tape also is disadvantageous from economic point of view, because they can not be used again again.

U.S. Pat 4110774 discloses a kind of coupling device that does not need with splicing tape.But in this device, film is hooked on the machine leader, shown in Figure 19 and 20.Tongue piece 72 and an opening 74 that is formed on film 73 front ends of comprising a flexible strip form between two otch 71 that are formed on machine leader 70 rear ends at the coupling device shown in these accompanying drawings.Thereby film is to be inserted into the mode that the neck 75 that makes tongue piece in the opening 74 of film is stuck in out on 74 mouthfuls the edge by the tongue piece 72 with machine leader to be coupled on the machine leader 70.

Owing to do not need splicing tape in this device, film just can be coupled on the machine leader to very economical.Because tongue piece 72 extends backwards with respect to machine leader 70 feed-in directions, it just can not be stuck on film feed-in passage or cling, thereby just machine leader 70 might be passed unobstructedly the feed-in of film feed-in passage.Also have, it also may make on the position that film is coupled on the machine leader to be wanted with high precision.

Pull out from opening 74 for tongue piece 72 is inserted in the opening 74 or with it, the former must be on the direction of width be bent by arc ground and analyses, and this is because the width W of tongue piece 72 ₁Width W greater than opening 74 ₂

A kind of so trickle operation is to exceed the ability of machine.Therefore, in this device, machine leader and film be dynamically connected certainly and disengagement is impossible.

When film 73 passed film feed-in passage by feed-in in the robotization film developer, it was subjected to sizable tensile force in the calibration point place regular meeting of film feed-in passage.This tensile force often concentrates on the tongue piece 72, and tongue piece 72 may be out of shape and from opening 74 mouthfuls like this.Therefore, this coupling device can not be with sufficiently high reliability with machine leader and film coupling.

In addition, because film 73 can be around the bending of the neck of tongue piece 72, it is being brought to the tortuous and damage of regular meeting when contacting with film feed-in passage.

Purpose of the present invention just provides a kind of machine leader and is used for film is coupled to coupling device on the machine leader, and it can make film easily, reliably and, if desired, automatically be connected on the machine leader and with its disengagement.

According to the present invention, a kind of machine leader is provided, it comprises a traction lamellar body that is formed and had a plurality of holes by flexible thin sheet spare, the hole is formed for the feed-in machine leader with the interval that equates, the traction lamellar body has and is formed on it and extends the excrescence that crosses described film patchhole with respect to the film patchhole at machine leader feed-in direction rear portion with in machine leader feed-in direction, excrescence be linked to be integral body with respect to the front end of machine leader feed-in direction and traction lamellar body, then be bearing on the edge part of film patchhole with respect to the rear end of machine leader feed-in direction.

Excrescence can be the part that is fixed on the pieces of sheet of traction lamellar body front, and the front that perhaps also can be integrally formed in the film patchhole is along last.In this case, pieces of sheet should be attached at the rear end of the back of traction lamellar body with the supporting excrescence.

Thereby the front end that the interlock hole is formed on each film is in the film patchhole that this film is inserted machine leader the time, and excrescence will be engaged in the interlock hole that is formed on the film.

In order firmly and reliably film to be connected on the machine leader, being preferably machine leader provides film insertion otch and provides the interlock excrescence to insert the both sides of the film of each otch in order to constraint in the both sides of otch in the back of film patchhole.Replace this otch and excrescence, also can form the second film patchhole in the back of film patchhole.

Further feature of the present invention and purpose will be more obvious from the description of being done with reference to the accompanying drawings, wherein:

Fig. 1 is the skeleton view of first embodiment of the invention;

Fig. 2 is the sectional view that cuts II-II line in Fig. 1;

Fig. 3 is the sectional view that shows film Connection Step intermediateness;

Fig. 4 is the part of machine leader and the decomposition diagram of a pieces of sheet;

Fig. 5 A is the skeleton view of second embodiment of the invention;

Fig. 5 B is its sectional view;

Fig. 6 is the skeleton view of third embodiment of the invention;

Fig. 7 is the sectional view that cuts VII-VII line in Fig. 6;

Fig. 8 is a film contact pin schematic representation of apparatus;

Fig. 9 A-9D demonstrates the operation of a film disengaging gear step by step;

Figure 10 is the skeleton view of fourth embodiment of the invention;

Figure 11 is the sectional view that cuts XI-XI line in Figure 10;

Figure 12 is the sectional view that shows film Connection Step intermediateness;

Figure 13 is the part of machine leader and the decomposition diagram of a pieces of sheet;

Figure 14 is the skeleton view of fifth embodiment of the invention;

Figure 15 is the sectional view of Figure 14;

Figure 16 A is the skeleton view of the 6th embodiment, demonstrates the second film patchhole and forms state before;

Figure 16 B is that same skeleton view demonstrates the second film patchhole;

Figure 17 A is the skeleton view of the machine leader of seventh embodiment of the invention;

Figure 17 B is this machine leader and the skeleton view that is connected a film thereon;

Figure 18 is the skeleton view of an ordinary film coupling arrangement;

Figure 19 is the front view of another ordinary film coupling arrangement; With

Figure 20 is the sectional view that cuts XX-XX line in Figure 19.

Embodiments of the invention are described with reference to Fig. 1-17.

Fig. 1-4 shows the first embodiment of the present invention.As shown in the figure, machine leader L1 comprises the flexible traction lamellar body 1 of a synthetic resin pieces of sheet.Be formed with a plurality of holes 2 of arranging with same intervals on it in the feed-in direction.It is to nibble wheel by one of engagement in hole 2 in one direction and rotate it and by feed-in.2 both sides have hole 4 to traction lamellar body 1 in the hole at its rear portion.A film 3 can be inserted in each hole 4.

The width in hole 4 width with film 3 basically is identical.Therefore when being inserted in film 3 in the hole 4, two edges of film 3 abut on the dual-side in hole 4, when they seldom can shake during by feed-in.

Pieces of sheet 5 overlaps on the traction lamellar body 1 to cover corresponding hole 4.They are fixed on the machine leader L1 by bonding or fusing.

Each pieces of sheet 5 has a window 6 that aligns with hole 4.Excrescence 7 is formed on the front of each window 6 along last (with respect to the feed-in direction of machine leader).Thereby excrescence 7 extends across free and bearing that hole 4 makes them on the traction lamellar body 1 near hole 4 back edges in the feed-in direction of machine leader L1.

Each film 3 is prepared against and excrescence 7 interlocks near its front end place porose 9.

Make it little with respect to the possibility that machine leader L1 tilts on the machine leader L1 in order accurately film 3 to be connected to, each film 3 should have more than one hole 9 to admit a plurality of excrescences 7.

By the front end of each film 3 back from machine leader L1 is inserted into hole 4 and the window 6, excrescence 7 is promoted by the front end of film 3 thereby upwards turns back as shown in Figure 3.

Face toward excrescence 7 when each film 3 is inserted into until its hole 9 courts, excrescence 7 will be pressed in the hole 9 owing to the elastic recovering force of itself.By under this state film 3 being retracted, excrescence 7 just is allowed to stretch gets back to its original stop place.Film 3 is coupled on the machine leader L1 as shown in Figure 2 like this.In top mode, each film 3 can retract it and automatically be coupled on the machine leader L1 then by it being pushed distance predetermined in the hole 4.

In case after being coupled to machine leader L1 and going up, film 3 just is securely connected on machine leader L1, and the free end of excrescence 7 just is bearing on the back edge in hole 4 thereby they just can not turn down.

Film 3 is just washed by feed-in film rinsing unit by machine leader L1 guiding.Extend back because excrescence 7 is the feed-in directions with respect to machine leader, they just can not be stuck on film feed-in passage or cling, so machine leader L1 and film 3 can unobstructed ground feed-ins on film feed-in passage.

When feed-in, the dual-side of film 3 is keeping being close on the dual-side in hole, so they can not shake or bending.

When feed-in, a tensile force can act on the film 3 by this way, makes excrescence 7 as distortion downwards among Fig. 2.But in fact, they can not be out of shape like that, because their free end rests in the back edge in close hole 4 on the traction lamellar body 1.Therefore, the possibility that comes off from machine leader of film 3 almost is non-existent.

Film 3 to be taken off from machine leader, they can be promoted to make excrescence 7 raise up to them from hole 9, to deviate from fully forward, then with film toward pulling back.

In the position that they are stopped, keep flushing with the top surface of the pieces of sheet 5 that is fixed to traction lamellar body 1 with pieces of sheet 5 integrally formed excrescences 7.Like this, compare with directly being fixed on the excrescence of traction on the lamellar body 1, their are blocked by for example finger tip and the possibility of being out of shape is little.

Fig. 5 A and 5B demonstrate the second embodiment of the present invention.In this embodiment, excrescence 7 edge, front (with respect to the feed-in direction of machine leader) extension backward from being formed on each hole 4 on the traction lamellar body 1.On the back edge in each hole 4, be formed with the tip that otch 10 wherein holds excrescence 7.

Pieces of sheet 11 is bonding or otherwise be fixed on the tip of the back of traction lamellar body 1 with toilet cover otch 10 and supporting excrescence 7.

Identical with first embodiment, excrescence 7 extends back with respect to the feed-in direction of machine leader L1, thereby excrescence 7 unlikely is stuck on the feed-in passage or clings.Also might automatically film be connected and throw off with machine leader.

In first and second embodiment, be engaged in otch 8 or 10 by the tip that makes excrescence 7, they just can not shake by feed-in the time, thereby film 3 just can be connected on the machine leader by excrescence reliably.

Fig. 6 and 7 demonstrates the third embodiment of the present invention.In the 3rd embodiment, otch 12 is formed on the rear (with respect to the feed-in direction of machine leader L1) in hole 4.Film 3 inserts in the otch 12.The both sides of otch 12 have the both sides that excrescence 13 is used to retrain film 3.Their width is substantially equal to the width of film 3, therefore can prevent that the film that is inserted in the otch from shaking.

In other direction, this embodiment is structurally identical with first embodiment.Therefore, just done without by description of them with regard to representing with identical label for identical parts.

In the 3rd embodiment, the tip of each film 3 be the back side from machine leader L1 be inserted into wait until that always excrescence 7 is engaged in the hole 9 its hole 4 till.So the aft section of film 3 is elevated and is pushed in the otch 12 and makes flexibly upwards distortion of excrescence 13 simultaneously.Film 3 is coupled on the machine leader L1 like this.

In the 3rd embodiment, because the tip of film 3 is inserted in hole 4 and the otch 12, even if there is a tensile force to act on the film 3 when feed-in, excrescence 7 also unlikely meetings slippage from hole 9 goes out.That is to say that film 3 can remain attached on the machine leader more reliably.

Fig. 8 demonstrates one in order to film 3 is coupled to the contact pin device on the machine leader L1 shown in Fig. 6 and 7.It comprises a bottom film guide member 20 and the top film guide member 22 of also being made up of polylith plate 23 be made up of polylith plate 21.A film turning channel 24 is formed between upper and lower film guide member 20 and 22.The usage of this contact pin device is as follows: machine leader L1 is placed on the bottom film guide member 20; Otch 12 is passed at glue place 3 be fed into film turning channel 24 places; With a pair of feed-in roller 25,26 is rotated in case with the film feed-in and be inserted in the hole 4 and make excrescence 7 simultaneously upwards distortion be straight wait hole 9 when facing toward excrescence 7 till, excrescence 7 is engaged in the hole 9 under their elastic recovering forces own then.

After in case excrescence 7 is engaged in the hole 9, top film guide member 22 and one of be bearing in the feed-in roller 25 on the top film guide member 22 roller and move a distance that is equal to or greater than film 3 width towards film 3 Widths.Then, by machine leader L1 is moved in the direction of arrows, just can from bottom film guide member 20, pull out film 3.

Use this contact pin device, film 3 just can automatically be coupling on the machine leader L1.

Fig. 9 demonstrates a kind of device in order to film is thrown off from machine leader.The usage of this device is as follows: roller after 30 and is presented machine leader L1 forward to 31 and be connected that film 3 on the machine leader is straight to wait to the hole 4 just in time to be aligned in (referring to Fig. 9 A) above the tip of separating tool 32 with a preliminary roller; Only film 3 is continued to present forward to loosen film 3 between hole 4 and the otch 12 as shown in Fig. 9 B by rotating back feed-in roller 31; Separating tool 32 around pivot upwards rotate its tip pushed in the hole and make excrescence 7 upwards distortion as shown in Fig. 9 C.Excrescence 7 is just deviate from from hole 9 like this.

Under this state, till back feed-in roller 31 is return always wait until them top and withdrawed from from hole 4 and otch 12 to counter-rotation so that with film 3.So as shown in Fig. 9 D, separating tool 32 rotates around pivot, and preceding and back feed-in roller 30 and 31 just rotates machine leader L1 and film 3 is pulled out from the feed-in passage.

By using this device, just might automatically film 3 be thrown off as shown in Figure 6 from machine leader L1.This device also can be used for film 3 is thrown off from the machine leader L1 shown in Fig. 1 and 5.

Figure 10 to 14 shows the fourth embodiment of the present invention.In this embodiment, traction lamellar body 1 has first hole 40 and is formed on second hole 41 of 40 back, first hole (with respect to machine leader L1 feed-in direction).Thin slice 42 is bonding or make formation window 43 and 44 thereon aim at first hole 40 and second hole 41 respectively with the top that other method is fixed on traction lamellar body 1.Each pieces of sheet 42 has the excrescence 45 that extends back along (with respect to the feed-in direction of machine leader) from the front of window 43, and excrescence is crossed free end that window 43 makes them and is received in the otch 46 that forms on window 43 back edges and is bearing on the traction lamellar body 1 near the back edge place in first hole 40.

In the 4th embodiment, it all is by film 3 being passed window 44 is inserted in second hole 41 thereby it toply carries out from the outstanding mode in the back of machine leader L1 that each film is connected on the machine leader L1; Then window 44 is inserted in top first hole 40 of passing of film, excrescence 45 upwards is out of shape as shown in Figure 12, wait hole 9 always towards facing toward excrescence 45; At last film 3 being pulled back is engaged in the hole 9 excrescence 45.

When each film 3 was connected on the machine leader, as shown in Figure 11, just contact was on the back edge of window 44 for it, and the front in second hole 41 is along on the back edge in last and first hole 40.Therefore, even if be subjected to a tensile force when its feed-in film rinsing unit, this advocates to have been born by these contact site branch, so excrescence 45 just can not be subjected to unsuitable power.Even if but they are subjected to this power, excrescence 45 also unlikely can be out of shape because their conical sliding support on traction lamellar body near first hole 40 back edges.Therefore, film will be difficult to such an extent that can separate with machine leader.

Because first and second holes 40 and 41 width are substantially equal to the width of film 3, just might prevent film 3 bendings during by feed-in at film 3.

Film can be thrown off by such method and machine leader, is about to that each film promotes towards first hole 40 from second hole 41 so that excrescence 45 lifted above pieces of sheet 42 wait until that always excrescence 45 throws off from hole 9, and then film is retracted.

Film 3 can use disengaging gear shown in the contact pin device shown in Fig. 8 or Fig. 9 to be connected on the machine leader or with machine leader to throw off.

Figure 14 and 15 demonstrates the fifth embodiment of the present invention.In this embodiment, first and second holes 40 and 41 are formed on the aft section (with respect to the feed-in direction of machine leader) of traction lamellar body 1.Excrescence 45 extends back from the edge, front in first hole 40.

They top is received in the otch 46 that forms along the back edge in first hole 40 and is bearing on the pieces of sheet 47 that is bonded in traction lamellar body 1 back side.

The 5th embodiment can obtain equifinality and the effect of the 4th embodiment as shown in Figure 10 basically.

Figure 16 A and Figure 16 B demonstrate the sixth embodiment of the present invention.In this embodiment, the shape cut channel 48 on the traction lamellar body that is formed in 40 back, first hole (with respect to the feed-in direction of machine leader) of replacement used pieces of sheet 47 in the 5th embodiment.The traction body part that is depicted by cut channel 48 is turned back towards the dorsal part of traction lamellar body 1 and is formed second hole 41.The part of turning back 49 bonds to the back side of traction lamellar body 1 to support the top of excrescence 45.

Figure 17 A and Figure 17 B demonstrate the seventh embodiment of the present invention.In this embodiment, second hole 41 has the preceding and back edge 50 and 51 of arc.Otch 52 is formed on the two ends of front along 50.

The traction lamellar body also is formed with air hole 53 at film 3 superimposed part places.

In others, present embodiment is structurally identical with the 5th embodiment shown in Fig. 5.Therefore, just done without by description of them with identical label sign for identical parts.

In the 7th embodiment because second hole 41 has the preceding and back edge of arc, be connected on the machine leader film only 2 locate with corresponding before contact with back edge 50 and 51.Therefore, after flushing, when being blown into hot-air film 3 is carried out drying, just any Treatment Solution that is trapped between film and the machine leader L1 might be evaporated fully and soon.That is to say that processed film can be soon and given drying effectively.

Thereby by on traction lamellar body 1, providing air hole 53 just might reduce the gas penetration potential that contact area is improved the contact site office between traction lamellar body 1 and film 3 between traction lamellar body and the film.Therefore, drying efficiency can further improve.Because reducing of contact area, film 3 is damaged with regard to unlikely.

Be major advantage of the present invention below:

1) by the top of each film is inserted in the hole that is formed on the traction lamellar body, excrescence just is engaged in the hole that is formed on the film.Therefore, film can be easily, also can automatically be connected to if desired on the machine leader and with its disengagement.

2) free and bearing of excrescence is on the traction lamellar body or near the pieces of sheet in order to the back edge in the hole of inserting film.Like this, excrescence is with regard to unlikely bending and sink in the hole, thereby they just can be connected on the machine leader film with the reliability of height.

3) by otch being provided and providing the bonding part again, just might fall film more reliably and be connected on the machine leader in the both sides of each otch at the rear portion of film patchhole (with respect to the feed-in direction of machine leader).

4) since the width of film patchhole and otch the width with film is identical basically, just might when the film feed-in, prevent the film bending.

5) by form second hole at the rear of film patchhole (with respect to the feed-in direction of machine leader), film just can more firmly and reliably be connected on the machine leader.

6) in being arranged to have the structural arrangement of preceding and back edge of arc, the second film patchhole might remove Treatment Solution fully by the mode that makes film drying.By forming air hole, the gas penetration potential of contact portion just obtains improving between film and the machine leader, thereby just might more effectively dry film.

7) since the width of the second film patchhole width with film is identical basically, just might prevent the film bending more reliably.

Claims (14)

1. machine leader, it comprises a traction lamellar body that is formed and had a plurality of holes by flexible thin sheet, described hole is formed for the feed-in machine leader with the interval that equates, described traction lamellar body has and is formed on it and extends the excrescence that crosses described film patchhole with respect to the film patchhole at machine leader feed-in direction rear portion with in machine leader feed-in direction, the front end and the described traction lamellar body with respect to machine leader feed-in direction of described excrescence are linked to be integral body, then are bearing on the edge part of described film patchhole with respect to the rear end of machine leader feed-in direction.

2. the machine leader described in claim 1 is characterized in that it also comprises the pieces of sheet that is fixed on described traction lamellar body front so that cover described film patchhole, and described excrescence is linked to be and is integrally formed on the described pieces of sheet.

3. the machine leader described in claim 1, it is characterized in that wherein said excrescence be linked to be integrally formed in described film patchhole the front along last, wherein pieces of sheet is fixed on the back of described traction lamellar body, and the described rear end of described excrescence is bearing on the described pieces of sheet.

4. as each described machine leader among the claim 1-3, the width that it is characterized in that wherein said film patchhole is substantially equal to prepare to insert the width of the film that described film inserts in the hole.

5. as each described machine leader among the claim 1-3, it is characterized in that engagement excrescence that wherein said traction lamellar body has the otch that can insert film at the rear portion of described film patchhole and is arranged on described otch both sides is inserted in the both sides of the film in described each otch in order to engagement.

6. the machine leader described in claim 5 is characterized in that the width of wherein said otch is substantially equal to prepare to insert the width of the film in the described otch.

7. as each described machine leader among the claim 1-3, it is characterized in that wherein said traction lamellar body has the second film patchhole that wherein can insert film at the rear portion of described film patchhole.

8. the machine leader described in claim 7 is characterized in that the wherein said second film patchhole has the preceding and back edge of arc.

9. the machine leader described in claim 7 is characterized in that wherein said traction lamellar body has air hole passing top superimposed with it the part place that the described second film patchhole enters the film of described film patchhole.

10. the machine leader described in claim 8 is characterized in that wherein said traction lamellar body has air hole passing top superimposed with it the part place that the described second film patchhole enters the film of described film patchhole.

11. the machine leader described in claim 7, the width that it is characterized in that the wherein said second film patchhole are substantially equal to prepare be inserted into the width of the film of the described second film patchhole.

12. the machine leader described in claim 8, the width that it is characterized in that the wherein said second film patchhole are substantially equal to prepare be inserted into the width of the film of the described second film patchhole.

13. the machine leader described in claim 9, the width that it is characterized in that the wherein said second film patchhole are substantially equal to prepare be inserted into the width of the film of the described second film patchhole.

14. film is connected to coupling device on the machine leader as each described being used among the claim 1-13, described coupling device comprises the interlock hole that is formed on the described film, described excrescence and described film patchhole, when described interlock hole is arranged in described film and is inserted into described film patchhole, described excrescence is engaged in the described interlock hole.

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